Abstract: A throttle body fuel injection system including a throttle body with at least one air intake, a fuel injector coupled to the throttle body at a fuel port and an annular ring coupled to the cylindrical inner wall of the air intake. The annular ring includes a primary fuel discharge orifice adjacent to the fuel port and a plurality of secondary fuel discharge orifices arranged radially around the annular ring for spraying atomized fuel into the air intake.

Abstract: Methods and systems are provided for determining an offset of a manifold pressure sensor. In one example, an engine method may include indicating degradation of the manifold pressure sensor based on a sensor offset, the sensor offset based on a manifold pressure measured at a first throttle angle, a barometric pressure at a second throttle angle, a reference manifold pressure at the first throttle angle and reference barometric pressure, and the reference barometric pressure. Further, the method may include adjusting an output of the manifold pressure sensor by the determined sensor offset.

Abstract: A ranking module determines N ranking values for N predetermined cylinder activation/deactivation sequences of an engine, respectively. N is an integer greater than or equal to two. A cylinder control module, based on the N ranking values, selects one of the N predetermined cylinder activation/deactivation sequences as a desired cylinder activation/deactivation sequence for cylinders of the engine. The cylinder control module also: activates opening of intake and exhaust valves of first ones of the cylinders that are to be activated based on the desired cylinder activation/deactivation sequence; and deactivates opening of intake and exhaust valves of second ones of the cylinders that are to be deactivated based on the desired cylinder activation/deactivation sequence. A fuel control module provides fuel to the first ones of the cylinders and disables fueling to the second ones of the cylinders.

Abstract: Systems, methods and techniques for exhaust gas recirculation are provided. The system includes a variable venturi device that connects an inlet air supply line and recirculating exhaust gas supply line to an intake manifold supply. A controller in communication with at least one pumping pressure sensor and a flow control element position sensor associated with the variable venturi mixing device is operable to determine a flow rate of the recirculating exhaust gas. The flow rate determination may be used to control NOx emissions during operation of the internal combustion engine.

Abstract: A method, comprising: operating an engine cylinder with fuel from a first injector and not a second injector and activating the second injector in response to a rail pressure increase of a fuel rail, the fuel rail coupled to the second injector. In this way, degradation of the second injector may be reduced by activating the second injector and allowing fuel flow through the second injector to reduce the pressure and temperature of the fuel rail.

Abstract: Engines and methods execute a high efficiency hybrid cycle, which is implemented in a volume within an engine. The cycle includes isochoric heat addition and over-expansion of the volume within the engine, wherein the volume is reduced in a compression portion of the cycle from a first quantity to a second quantity, the volume is held substantially constant at the second quantity during a heat addition portion of the cycle, and the volume is increased in an expansion portion of the cycle to a third quantity, the third quantity being larger than the first quantity.

Abstract: A fuel pressure relief valve is positioned along a fuel circuit of an internal combustion engine. The pressure relief valve includes a valve body, a first plunger positioned within the valve body, a second plunger positioned within the first plunger, and a valve plug securing the first and second plungers in the valve body. A spring is positioned between the valve plug and the second plunger. Fuel leakage into the pressure relief valve causes the pressure relief valve to lift undesirably in the absence of excessive fuel pressure. The undesirable lifting undesirably affects the operation of the fuel rail and causes wear and shortened life of the pressure relief valve. The first plunger has at least one relief passage or groove located on an exterior surface, relieving the undesirable pressure buildup from a chamber formed between the valve body and the first plunger, eliminating undesirable liftoff events.

Abstract: A device is provided that may be adapted to control or monitor the pressure level of a fluid system. The device includes a member composed of a shape memory alloy in a superelastic state. The member is configured to undergo a phase change from a high modulus Austenitic phase to a low modulus Martensitic phase and stretch in response to an activation stress. In one embodiment, the member defines two ends such that one end of the member is operatively connected to a fixed point. Another end of the member is operatively connected to a movable element. As the member stretches in response to the activation stress, the movable element is translated relative to the fixed point. In another embodiment, the member includes two plates with respective holes that are selectively aligned when the first and second plates stretch or deform in response to the activation stress.

Abstract: A fluid accumulator arrangement suitable for use with a compression ignition internal-combustion engine comprising a first storage volume, a second storage volume, and valve means fluidly connected between the first storage volume and the second storage volume. In one embodiment, the valve means is a three-way control valve wherein, in a first position, the first storage volume communicates with the second storage volume, in a second position the first storage volume is isolated from the second storage volume and, in a third position, one of the first or second storage volumes communicates with a low pressure drain. The arrangement may also include control means to operate the valve means in accordance with predetermined control strategies.

Abstract: An injection gate (44,144,244,344) for high pressure, high velocity secondary fluid for admixture of an atomized spray (80,180) thereof with another or primary fluid that atomizes the other fluid. The secondary fluid may be an accelerant and the primary fluid may be a low pressure fuel/air mixture in a fuel injection arrangement for an internal combustion engine. An injection billet (10,110,210,310) for an engine is interposed between the carburetor (12) and the manifold (14), with an array of such injection gates (44,244,344) paired with an array of fuel/air gates (34,234,334) about an aperture coinciding with a throttle bore (60,160,260,360) and evenly balancing the spray about the throttle bore, creating a halo effect of atomized admixture of accelerant/fuel. The injection of accelerant is directed sharply downwardly toward the center of the bore and through the injected fuel stream, atomizing the fuel thereof for a high efficiency boost of horsepower.

Abstract: In a method for determining a control parameter for a fuel injector of an internal combustion engine, the problem of enabling more precise determination of the control parameter, even if the fuel pressure (FUP) present on the fuel injector varies, is solved in that the fuel pressure (FUP) present on the fuel injector during the injection (I1, I2, I1?, I1?) is concluded while allowing for the time of the fuel pressure value detection and/or the crankshaft angle position of the internal combustion engine during the detection of the fuel pressure value, and that the control parameter is determined based on the fuel pressure (FUP) that was concluded.

Abstract: A method of valve lift failure detection may include determining first and second intake air pressures in an engine having intake valve lifters that selectively operate intake valves in first and second lift modes. The first intake air pressure may correspond to an intake stroke of a first piston of the engine when the engine is commanded to operate in the first lift mode and the second intake air pressure may correspond to an intake stroke of a second piston of the engine when the engine is commanded to operate in the first lift mode. The method may further include determining a difference between the first and second intake air pressures and diagnosing an intake valve lifter failure when the difference exceeds a predetermined limit.

Abstract: The pressure controlling electromagnetic valve comprises an electric sub-assembly (1) provided with a coil (3) and the yoke thereof (4) associated with a hydraulic sub-assembly (2) provided with a seat (7), which a conduit (9) connecting two high and low-pressure fluid circuits (10, 11), respectively, passes through, sealing means (8) of said conduit (9), a pusher (12) sliding in a pole piece (19) and actuating said sealing means (8), a movable core (13) which is connected to the pusher (12) and whose displacement is controlled by the coil (3), wherein said electric (1) and hydraulic (2) sub-assembly form two distinct unit blocks.

Abstract: Provided are a thermal siphon reactor and a hydrogen generator including the same. The hydrogen generator including the thermal siphon reactor includes: a housing; a reaction source container disposed in the housing; a reactor tube connected to the reaction source container in which a catalytic reaction of a reaction source provided from the reaction source container occurs; a catalyst layer which is porous, facilitates gas generation by being contacted with the reaction source, and is disposed in the reactor tube; and a product container which is connected to the reactor tube and collects a reaction product generated in the reactor tube, wherein in the reactor tube, a convection channel through which the reaction product is discharged passes through the reactor tube in the lengthwise direction of the reactor tube. The thermal siphon reactor and the hydrogen generator including the same have a self-operating ability, operate at low costs, and have small installment volume.

Abstract: A method for maintaining and/or adjusting a system pressure in a fuel injection system of an internal combustion engine, in which the internal combustion engine is a part of an hybrid power train, which includes in addition at least one further drive. A system pressure in a reservoir element of the fuel injection system is monitored using a pressure sensor. In operating modes in which the internal combustion engine is shut down and/or is separated from the hybrid power train, the maintaining or the adjusting of the system pressure takes place via a pressure-regulating valve. The activation of the pressure-regulating valve takes place directly or indirectly via a control unit or a vehicle control unit or a clutch control unit.

Abstract: An injection system for an internal combustion engine has a prefeed pump for feeding fuel from a fuel tank, a high-pressure pump, which is situated downstream of the prefeed pump, for feeding the fuel into at least two injectors, a fuel distributor which is situated downstream of the high-pressure pump and which is designed to distribute the fuel to the injectors, a pressure control or pressure limiting valve situated downstream of the high-pressure pump and by which the pressure to be produced in the fuel distributor can be adjusted or limited, and a pressure sensor for determining a pressure downstream of the high-pressure pump and upstream of the pressure control or pressure limiting valve, wherein the pressure sensor, the pressure control or pressure limiting valve and the fuel distributor are formed in a high-pressure module, and the high-pressure module is formed as a structural unit with the high-pressure pump.

Abstract: Disclosed is a pressure regulator for a fuel supply unit of a motor vehicle comprising a valve for joining a connection to an outlet above a designated pressure in the connection, a valve body and a valve seat, and a spring element for prestressing the valve body against the valve seat, characterized in that the valve body is designed as a sheet-metal part.

Abstract: An internal combustion engine is provided with a control arrangement for influencing exhaust gas pressures and the level of In-Cylinder-Charge-Dilution (ICCD) so as to provide cycles with different emission characteristics. The exhaust gas pressure may be influenced by adjusting a combustion parameter between various cycles. The adjustment of the combustion parameter may, for example, include an adjustment of the injection timing, a change in shot mode, or a change in fuel quantity. By making such adjustments, cycle-to-cycle exhaust gas pressure variations may be introduced so as to influence future combustion events and reduce overall emissions and noise levels.

Abstract: An apparatus and method are disclosed for continuously delivering and non-intermittently introducing a liquid into a main flow. An exemplary apparatus includes a supply line, a delivery line, a delivery device for delivering a mass flow of the liquid from the supply line to the delivery line, and at least one atomizing element communicating with the delivery line. A branch line which branches off from the delivery line can be arranged in the delivery direction downstream of the delivery device and upstream of the atomizing element, at least one changeover and/or regulating member for shutting off and/or throttling the branch line being arranged in combination with the branch line.

Abstract: A system and method for metering the injection of propane gas into the air intake of a gasoline or gaseous fuel spark ignition internal combustion engine by subjecting a metering valve member to intake manifold vacuum so as to decrease propane injection with increasing engine vacuum which counters a substantially constant biasing spring force acting to thereon tending to increase at the propane injected into the engine air intake.

Abstract: A fuel control device for a combustion engine capable of running on any one of a plurality of fuels has a fuel selection module with a plurality of fuel type settings for selecting a specific fuel type whereupon the fuel control device controls the outlet pressure of the chosen fuel to a desired fuel pressure corresponding to the calorific properties of the chosen fuel. The fuel selection module preferably operates a plurality of fuel flow circuits each designated for a specific fuel type, and each having a biased closed inlet valve and a biased closed outlet valve. Located preferably between each inlet and outlet valve is a pressure regulator designated for the specific fuel type and controlling the outlet fuel pressure. The device preferably includes a fuel metering apparatus and a shutoff valve that communicate with, and control in part, fuel flow through the fuel flow circuits.

Abstract: A fuel pressure relief system in an engine fuel system having a fuel line is shown. In one example, the system has a pressure relief valve in the fuel line; and a pressure relief assembly coupled to the relief valve, the assembly having an accumulator in communication with the engine side of the fuel line at least during engine off conditions.

Abstract: A regulator for use with fuel cells, which is mounted in a pressure controller of a fuel cell system, has a first diaphragm flexible under the pressure of pilot air supplied as an oxidizing agent to a pilot chamber, a second diaphragm flexible under the pressure of a hydrogen-containing gas flowing through a fluid passage, and a rod connected to a valve head. The spring force of a first spring is set to a value greater than the spring force of a second spring. The regulator is of a normally closed type in which the valve head is seated on a valve seat when the pilot air is not supplied to the pilot chamber.

Abstract: Several embodiments of noise reduction apparatus for a fuel injector are disclosed and include perforated tubes, side branch filters and expansion chambers strategically located between a respective injector and the fuel rail to target and reduce high frequency noise generated by the mechanical movement of the fuel injector.

Abstract: A fuel vapor pressure regulator by which the input pressure of an input fluid is regulated by the opening and closing of a valve unit controlled by a piston pressure sensor, the operation of which is, in turn, controlled by a movement of a preset bias, the output pressure of the fluid delivered by the regulator, and a biasing pressure that reflects the operating demands of the utilization unit to which the fluid is delivered.

Abstract: A method and system may be provided to perform a process for controlling NOx emissions of an target engine. In one embodiment of the invention, the process may include determining predicted NOx values based on a model reflecting a predetermined relationship between control parameters and NOx emissions, wherein the control parameters include ambient humidity, manifold pressure, manifold temperature, fuel rate, and engine speed associated with the engine. Further, the process may include adjusting the model based on a determination of whether the predicted NOx values meet a predetermined criteria associated with actual NOx values. The adjusted model may be stored in a memory associated with the engine whereby NOx emissions exhausted from the engine may be reduced based on virtual NOx emission values determined from the adjusted model.

Abstract: A fuel pressure regulator for use with an internal combustion engine includes a housing, a valve assembly in the housing, an elastic diaphragm connecting the valve assembly to the housing, a stop on one of the housing and the support and a spring between the housing and the valve assembly. The housing includes an inlet, an outlet and a longitudinal axis. The valve assembly is intermediate the inlet and the outlet and selectively opens fluid communication between the inlet to the outlet when a fuel pressure at the inlet is at least equal to an over-pressure amount. The valve assembly is displaceable along the longitudinal axis by an opening distance when a fuel pressure at least equal the over-pressure amount acts on the diaphragm so that the diaphragm does not exceed its yield strength. The diaphragm is in fluid communication with the inlet and elastically displaceable along the longitudinal axis up to a maximum distance.

Abstract: A multiple cylinder engine controls an air/fuel ratio accurately by improved detection of the fluctuations in a vacuum due to a change in the openings of throttle valves. The multiple cylinder engine includes a plurality of intake passages that independently feed intake air to cylinders; fuel injectors; throttle valves; a pressure sensor; and a fuel controller that controls fuel injection of each cylinder using the detected pressure. The multiple cylinder engine may further include a vacuum inlet passage having an inlet port opened into intake passages that introduces the pressure of the intake passages into the pressure sensor. The vacuum inlet passage preferably includes a throttle portion having a passage area of no more than one ninth that of the inlet port.

Abstract: A pump module for mounting in a fuel tank of an automotive fuel supply system includes a housing, a fuel pump mounted in the housing, a pressure regulator conduit mounted in the housing, and a pressure regulator. The housing includes a module inlet and a module outlet in fluid communication with the module inlet. The fuel pump is in fluid communication with the module inlet. The pressure regulator conduit is in fluid communication with the fuel pump. The pressure regulator conduit includes a regulator inlet, regulator outlet, and a receptacle in fluid communication with the regulator inlet and the regulator outlet. The receptacle includes a first surface surrounding an axis, and a second surface surrounding the axis and the first surface to provide a void between the first surface and the second surface. The pressure regulator is mounted in the receptacle to selectively open fluid communication between the regulator inlet and the regulator outlet.

Abstract: A multi-cylinder engine includes a plurality of combustion chambers and employs an improved intake pressure sensor arrangement to control fuel injection into the combustion chambers. A plurality of intake conduits define intake passages through which air flows to the combustion chambers. An intake pressure sensor senses intake pressure within the intake passages. A plurality of first conduits are coupled with an accumulator independent of one another and a second conduit is also coupled with the accumulator. The first conduits connect the accumulator to the respective intake passages. The second conduit connects the accumulator to the intake pressure sensor. A control device controls the amount of fuel injected into the combustion chambers based upon at least a signal from the intake pressure sensor.

Abstract: A fuel injector support assembly for mounting a fuel injector to the cylinder head of an engine. The fuel injector support assembly includes a fuel injector clamp attached to a bracket. The bracket is secured to the cylinder head by cylinder head mounting bolts, which are used also to fasten the cylinder head to the engine block. The fuel injector clamp is attached to the bracket and secures the fuel injector to the cylinder head.

Abstract: A method for extending the operating range of engine fuel injectors fed by a pressurized fuel system includes operating the fuel system at a controlled lower fuel pressure during engine operation in a lower power range, and operating the fuel system at a controlled higher fuel pressure during engine operation above the lower power range. An engine embodying the method may include a fuel distributor connected with the injectors for supplying the pressurized fuel and a pressure control operative in response to a prescribed engine condition, such as supercharger boost pressure, to maintain injector fuel supply pressure at a lower value during engine operation in a lower portion of the power range and at a higher value during engine operation in a higher portion of the power range. The dual or multiple fuel pressures provide greater fuel output for increased power in the higher power range with consistent fuel delivery for stable idle and engine operation in the lower power range.

Abstract: A fuel injection control method using a system comprising a high-pressure pump for pumping fuel, a fuel-pressure control valve disposed in a fuel bypass line communicating an output port and an input port of said high-pressure pump, and a controller for regulating fuel pressure, is provided. The method comprises: monitoring engine operating conditions; determining an optimal fuel injection pressure on the basis of said monitored engine operating conditions; determining on/off timing and on/off duration of said fuel-pressure control valve such that fuel pressure inside a fuel rail approaches said optimal fuel injection pressure; and opening and closing said fuel-pressure control valve according to said determined on/off timing and on/off duration of said fuel-pressure control valve.

Abstract: A flow-through pressure regulator includes a retainer that secures a diaphragm relative to a seat, and includes a cylindrical portion, an axial end portion and an annular portion. The cylindrical portion extends about a longitudinal axis and is fixed with respect to the seat. The axial end portion extends from the cylindrical portion and extends generally orthogonal relative to the longitudinal axis. The axial end portion includes a plurality of apertures that permit fluid communication and are selected so as to reduce noise due to fluid flow.

Abstract: A V-type 2-cylinder engine capable of distributing air-fuel mixtures equally to each cylinder, having a fuel injection device compact in its arrangement by making effective use of a V-space between the cylinders, and having an improved assembly performance and low manufacturing cost. In the V-type 2-cylinder engine having a V-space between two cylinders, there are arranged fuel injectors disposed in the cylinders, respectively, and a common fuel pressure adjustor for adjusting the pressures of fuels to be fed to the fuel injectors. An injection fuel introduction portion of a fuel passage is formed in a throttle body forming a section of intake passages and having throttle valves. The fuel pressure adjustor is disposed in the injection fuel introduction portion.

Abstract: A system is provided for limiting engine exhaust temperature to a maximum temperature limit. The system is operable to limit either a first or a second fueling parameter in accordance with an engine exhaust temperature estimation model. An engine exhaust temperature-limited fueling command is computed from the respective fueling parameter, and fuel supplied to the engine is limited thereby in order to maintain the actual engine exhaust temperature below the maximum temperature limit. In one embodiment, the engine exhaust temperature model is based on current values of engine speed, intake manifold temperature, mass charge flow, default fuel command parameters, and a first set of model constants. In an alternative embodiment, the engine exhaust temperature model is based on current values of engine speed, intake manifold temperature, intake manifold pressure, mass charge flow, default fueling parameters, and a second set of model constants including a lower heating value of fuel constant.

Abstract: A fuel injection control method using a system comprising a high-pressure pump for pumping fuel, a fuel-pressure control valve disposed in a fuel bypass line communicating an output port and an input port of said high-pressure pump, and a controller for regulating fuel pressure, is provided. The method comprises: monitoring engine operating conditions; determining an optimal fuel injection pressure on the basis of said monitored engine operating conditions; determining on/off timing and on/off duration of said fuel-pressure control valve such that fuel pressure inside a fuel rail approaches said optimal fuel injection pressure; and opening and closing said fuel-pressure control valve according to said determined on/off timing and on/off duration of said fuel-pressure control valve.

Abstract: An internal fuel filter for a pressure regulator having a body that encloses a fuel flow path. A first support includes a first surface adapted to be sealingly surrounded by the body. A second support is spaced from the first support along an axis. At least one rib is disposed between and contiguous with the first and second supports, wherein one of the rib and the second support includes a second surface adapted to sealingly surrounded the body. A filter element extends between the first support and the second support and surrounds the axis.

Abstract: The invention relates to a flat tubular damper for damping fluid pressure pulsations in fluid lines, in particular fuel pressure pulsations in fuel supply lines of motor vehicles, having at least one elongated chamber whose cross section is small in comparison to its longitudinal span and at least a part of whose chamber wall, being operationally connected with the fluid, can be elastically deformed by the fluid pressure pulsations. The invention provides that the cross section of the chamber changes continuously or discretely along its longitudinal span.

Abstract: A multiple cylinder engine controls an air/fuel ratio accurately by improved detection of the fluctuations in a vacuum due to a change in the openings of throttle valves. The multiple cylinder engine comprises: a plurality of intake passages 11a and 11b for feeding intake air to cylinders 2 and 3 independently of each other; fuel injectors 6 and 7 and throttle valves 4c provided for the intake passages; a pressure sensor C for detecting the pressure of one of the intake passages 11a and 11b; and fuel control means 20 for controlling the injection quality of the fuel injectors 6, 7 of each cylinder by using the detected pressure. The multiple cylinder engine may further comprise a vacuum inlet passage 18 having a inlet port 18a opened into intake passages 11a or 11b that introduces the pressure of the intake passages 11a or 11b into the pressure sensor C. The vacuum inlet passage 18 includes a throttle portion 18b preferably having a passage area of no more than one ninth that of the inlet port 18a.

Abstract: A multi-cylinder engine includes a plurality of combustion chambers and employs an improved intake pressure sensor arrangement to control fuel injection into the combustion chambers. A plurality of intake conduits define intake passages through which air flows to the combustion chambers. An intake pressure sensor senses intake pressure within the intake passages. A plurality of first conduits are coupled with an accumulator independent of one another and a second conduit is also coupled with the accumulator. The first conduits connect the accumulator to the respective intake passages. The second conduit connects the accumulator to the intake pressure sensor. A control device controls the amount of fuel injected into the combustion chambers based upon at least a signal from the intake pressure sensor.

Abstract: A fuel rail damper includes a hollow member having a first end and a second end, opposing first and second sides, and a first face and a second face interconnecting and spacing apart the first and second sides. Each of the first and second ends are sealed in an air tight manner to thereby define a chamber in conjunction with the first and second sides and the first and second faces.

Abstract: In a fuel supply apparatus disclosed, a variable displacement mechanism is driven once every two or more reciprocating motions of the plunger of a high-pressure fuel pump to control the delivery flow rate, so that the delivery flow rate control can be performed without having to raise the responsiveness of the variable displacement mechanism even when the reciprocating cycle of the plunger is short.

Abstract: A drive unit for driving a fuel pump for a small-sized vehicle, which is capable of reducing the current consumption of the fuel pump. A drive unit includes an ECU for controlling the fuel injection amount of a fuel injector. The ECU drives the fuel pump on the basis of control data for controlling the fuel injection amount of the fuel injector and of a power supply voltage of the fuel pump. For example, the fuel pump is driven under pulse-width modulation (PWM) in such manner that a pulse-width of a PWM signal is made larger with an increase in the injection amount of the fuel injector and is made smaller with a decrease in the fuel injection amount of the fuel injector.

Abstract: A valve seat for a fuel pressure regulator includes a valve body adapted to be disposed in the fuel pressure regulator and a passageway extending axially through the valve body. The passageway is tapered through the valve body to reduce fluid flow cavitation by limiting expansion of the fuel.

Abstract: A pressure regulating valve has a valve chamber with a supply for connection to a pressure source. It also has a valve member which is placed on a seat surface in a valve body by a closing spring with an adjusting pressing force. A throttle opening is provided in the valve body to a return conduit. The pressure regulating valve is formed so that the valve member releases the throttle opening to the return conduit in correspondence with a load condition of an internal combustion engine, depending on its stroke path.

Abstract: A fuel pressure regulator in either a returnless or fuel return fuel system for an automotive vehicle is integrally mounted between a fuel rail and an intake manifold port of the engine. A mounting cup is provided on the fuel rail and fuel entry or exit openings for the regulator are sealed by O-ring seals disposed between the regulator and the mounting cup on opposite sides of the fuel openings. The side of the regulator remote from the fuel chamber has a vacuum reference port received in a passage of an intake manifold boss and is sealed to the passage therein by an O-ring. By inserting the pressure regulator into the mounting cup with the O-ring seals and the vacuum reference port of the regulator into the passage of the intake manifold boss, the regulator is clamped between the fuel rail and engine manifold without ancillary connecting elements.

Abstract: A tunable fuel pressure regulator is disclosed. The regulator includes an internally replaceable fuel return orifice element that enables, in combination with the vacuum chamber adjustment screw, a wide range of fuel pressures and volumes to be accommodated within a single pressure regulator housing.

Abstract: A drive unit for driving a fuel pump for a small-sized vehicle, which is capable of reducing the current consumption of the fuel pump. A drive unit includes an ECU for controlling the fuel injection amount of a fuel injector. The ECU drives the fuel pump on the basis of control data for controlling the fuel injection amount of the fuel injector and of a power supply voltage of the fuel pump. For example, the fuel pump is driven under pulse-width modulation (PWM) in such a manner that a pulse-width of a PWM signal is made larger with an increase in the fuel injection amount of the fuel injector and is made smaller with a decrease in the fuel injection amount of the fuel injector.

Abstract: An outboard motor has an induction system and a fuel supply system. The two systems are linked together to improve responsiveness of the fuel supply system based upon fluctuations in pressure within the induction system. The motor includes an induction air pressure detection system. The detection system comprises a pressure sensor and a connection to at least two different air intake pipes of the induction system. The connection between the sensor and the two pipes is configured such that the distance between the sensor and each of the pipes is the same. The detection system is configured to sample the pressure in multiple intake pipes associated with multiple cylinders using connecting conduits that have the same length from each intake pipe to the pressure sensor.